RU2184994C2 - Method for user protection against electromagnetic radiation of computer screen - Google Patents

Abstract

FIELD: protecting users of personal computers and television sets from electromagnetic radiation. SUBSTANCE: method involves following procedures: image displayed on screen is made invisible for user for which purpose computer is turned through 90-180 deg. to side opposing commonly adopted position towards user's glance; image displayed on screen is projected onto mirror surface facing the user and optical copy of image free from electromagnetic radiation is obtained; computer screen and mirror surface are positioned relative to user's workplace until optimal visual perception of optical copy of screen produced by this method is attained. Two alternatives of optical copy formation, that is, single and double mirror image, are provided considering specific features of mirror display of alphanumeric characters and symbols. EFFECT: enhanced reliability of user protection due to avoiding direct vision of screen. 2 cl, 3 dwg

Description

 The scope of the invention is personal computers in general, especially in the system of preschool and school computer education, it can be used for televisions.

 A known method of protecting the operator (user) of the computer from the electromagnetic radiation of its screen, based on the use of special protective coatings and masks for the screen and the installation of filters from special grades of glass on it.

 However, this method does not provide a radical user protection effect. According to various sources, from 60 to 85% of users experience visual discomfort, pain in the eyes, headaches, noted visual impairment and various other ailments.

 A method is proposed for protecting the user from electromagnetic radiation from a computer screen, which allows solving this problem an order of magnitude more efficiently than the known method.

 The main idea of the proposed method is that direct visual communication of the user with the computer screen is excluded, the screen is made invisible to the user. Instead, the user is provided with an optical (light) copy of the screen image.

The proposed method is characterized by the following sequence of methods and actions:
1. By turning the computer at an angle of up to 180 ^o from its usual position, the screen towards the user's gaze, make the screen invisible to him.

 2. The screen image is projected onto a mirror plane facing the user, and thus an optical copy of the screen image free of electromagnetic radiation is obtained.

 3. Position the relative position of the computer screen and the mirror plane relative to the user's workstation and achieve optimal conditions for the user's visual perception of the screen display.

It is known that in mirror image the object appears in a 180 ^o image rotated. This is unacceptable for alphanumeric and symbolic characters from which text information is formed on a computer screen.

 Given this circumstance, the proposed method provides two options for the formation of an exact optical copy of the screen: double and single mirror screen.

 With the standard (readable) form of representing the letters of the alphabet, numbers and symbolic characters on the screen, an exact optical copy of the screen image is obtained by mirroring it twice. This process is illustrated in FIG. 1, where a computer 1 with a screen 2 is shown, mirror surfaces 3 and 5 facing the screen and towards the user's gaze 4. The arrows indicate the direction of light rays emitted by the screen and successively reflected by mirror surfaces 3 and 5. In this embodiment, in fact, for To obtain an exact copy of the screen, the optical wrapping effect of a rectangular glass prism is realized when light rays pass through it.

To achieve this effect, the angle between the mirror surfaces is taken equal to 90 ^o , and the projection of the screen 2 on the primary mirror plane 3 is carried out at an angle of 45 ^o . As a result, the final image on the mirror surface 5 exactly matches the screen image. The considered method of double screen mirroring is directly feasible on all models of manufactured computers and televisions.

 The effect of distorting the alphanumeric information in its mirror image noted above, as it were, initially precludes the possibility of obtaining a suitable (readable) optical copy of the screen for the user by displaying it once on a mirror surface.

 The proposed method solves the problem and is characterized in that the alphanumeric and symbolic information intended for display on a computer screen is converted to a mirror image form before being displayed on a screen, and then, by projecting the screen onto a mirror surface once, all information is restored to a suitable for the user a standard form.

Possible schemes for generating an optical copy of a computer screen with a single mirror image are shown in FIGS. 2, 3. Here, a computer 1 with a screen 2, a reflecting mirror surface 3 facing the plane of the screen and user 4 is shown in different ways: parallel to the plane of the screen in figure 2 and at an angle of 45 ^o to her in Fig.3.

 The considered option of forming an optical copy of the screen is characterized by the possibility of carrying out this process in a wide range of changes in the magnitude of the angle of projection of the screen image on the mirror surface.

 In each case, the angle is determined depending on the choice of location of the user relative to the computer screen. Here, the individual characteristics of the user, as well as the possibility of arranging the user's workplaces in industrial and residential premises, should be taken into account.

 As you know, the actual appearance of any characters on a computer screen is determined by the encoding of character generators and software tools for accessing them. Therefore, the implementation of the task of displaying letters, numbers, mathematical and other signs in the form of their mirror image is fundamentally feasible at the level of already known engineering solutions for input / output systems of this information in the usual standard form and is not considered in the application. It is advisable to note that for computers already in operation, hardware and software for displaying information in the form of a mirror image can be performed as an additional unit as an extension of the operating system used.

Claims (2)

1. A method of protecting a user from electromagnetic radiation of a computer screen, comprising providing the user with a radiation-free optical copy of the screen image, characterized in that the direct screen image is made invisible to the user, for which the computer is rotated through an angle in the range of 90-180 ^o in the direction opposite in relation to the generally accepted position, towards the user's gaze, alphanumeric and symbolic symbols of information before displaying transform the application software Ratnam means in the form of their mirror-image, after which reduced their standard form a single screen image on the projection mirror surface facing the wearer and oriented parallel to the plane of the screen or at some angle in the range of 0-45 ^o, setting its value in each case for achieving optimal conditions for the user's visual perception of an optical copy of the screen image and taking into account the layout of workplaces in the room. 2. A method of protecting the user from electromagnetic radiation of a computer screen, comprising providing the user with an optical radiation-free copy of the screen image, characterized in that the direct screen image is made invisible to the user, for which the computer is rotated through an angle of 180 ^o in the direction opposite to that generally accepted position, towards the user's gaze and, using the standard form of presentation on the screen of alphanumeric and symbolic characters to obtain accurate th optical copy of the screen image is carried out its image relaying optical diagram of two mutually perpendicular specular surfaces facing the user, on one of which at 45 ^o projected screen image.

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